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Three-wheeler

A three-wheeler is a vehicle with three wheels, typically motorized and designed for road use, encompassing configurations that blend motorcycle agility with automobile-like seating and enclosure, and serving purposes from personal recreation to commercial transport. These vehicles are distinguished by their lightweight construction, which often allows them to be classified differently from four-wheeled cars under regulations, such as being treated as motorcycles in some jurisdictions. Common layouts include the delta configuration (one wheel in front, two in rear) for maneuverability and sharp steering in models like the Morgan 3-Wheeler, and the tadpole or reverse trike (two wheels in front, one in rear) for enhanced stability, as seen in autocycles like the Can-Am Spyder. The history of three-wheelers traces back to the late , with Karl Benz's Patent-Motorwagen of 1886 recognized as the first practical automobile, featuring a three-wheeled design due to early limitations in and . By the early 20th century, they gained popularity as affordable "cyclecars" in , exemplified by H.F.S. Morgan's 1910 three-wheeler, which prioritized simplicity and low cost over luxury. Post-World War II, three-wheelers proliferated in Britain and elsewhere as economical alternatives amid fuel shortages, with the (later Robin) becoming iconic for its fibreglass body and reverse-three-wheel layout that skirted car taxes. In and developing regions, motorized three-wheelers evolved into vital urban transport, such as auto-rickshaws and tuk-tuks, which emerged in the mid-20th century and now number millions globally for passenger and cargo hauling. Today, three-wheelers encompass diverse applications, including electric cargo variants for sustainable logistics in cities, all-terrain models for off-road use, and high-performance recreational vehicles like the , which offer car-like comfort with motorcycle dynamics. As of 2025, electric three-wheelers, including cargo trikes and models like the Pulse, are expanding for urban mobility. Advantages include lower production costs, better , and maneuverability in , though challenges like reduced —particularly in sharp turns—persist, often addressed through modern and low centers of gravity. Regulatory classifications vary, with some U.S. states defining autocycles as three-wheelers with steering wheels and enclosed seating to differentiate them from motorcycles, enabling broader licensing access.

Overview and Definitions

Basic Definition

A three-wheeler is a motorized with exactly three wheels in contact with the ground, designed for transportation on roads and paths. These vehicles typically incorporate a to support the structure and , a system—either handlebars or a —tailored to the , and a propulsion unit such as an or to drive one or more wheels. Three-wheelers differ from bicycles, which rely on two wheels and human pedaling for propulsion, and from non-motorized tricycles, which are pedal-powered and often used for recreational or light utility purposes. Legally, they are frequently classified as in many jurisdictions due to their three-wheeled design and operational similarities, though certain enclosed or car-like variants may fall under automobile regulations. The basic physics of three-wheelers centers on across three contact points, which creates distinct compared to four-wheeled vehicles. The center of gravity's —particularly its and fore-aft relative to the —influences , with improper placement increasing the risk of tipping during acceleration, braking, or cornering.

Common Configurations

The most common configurations for three-wheelers are the and layouts, which differ primarily in wheel placement and affect handling, , and suitability for various purposes. In the configuration, a single is positioned at the front for , with two wheels at the rear typically providing drive and support for loads. This setup is prevalent in cargo vehicles and auto-rickshaws, where the rear axle's dual wheels enhance load-bearing capacity, allowing payloads up to 500-600 kg in models designed for freight. The layout offers good maneuverability in tight spaces due to the front 's pivoting action but can suffer from reduced lateral , making it prone to rollover during sharp cornering, especially under braking. Conversely, the configuration features two wheels at the front for and , with a single at the rear for . This arrangement is favored in sports and performance-oriented three-wheelers, providing superior cornering and higher lateral acceleration thresholds, often up to 0.93g or more with optimized angles. The front dual wheels improve braking efficiency through better weight transfer during deceleration and enable faster, more controlled high-speed turns, though it may limit rear load capacity compared to designs and increase the risk of forward tipping under combined turning and braking forces. Reverse configurations, which invert the drive and steering roles—such as driving the front wheels while steering the rear—are rare and primarily experimental, offering potential traction benefits but complicating overall . These variants highlight the trade-offs in three-wheeler design, where excels in load capacity for utility roles and prioritizes maneuverability for recreational use, though both face inherent stability limitations compared to four-wheeled vehicles.

Primary Uses and Applications

Three-wheelers serve as vital tools for in densely populated developing regions, particularly as auto-rickshaws and in and , where their compact size allows navigation through congested streets and narrow alleys for short-distance passenger transport. In , these vehicles form a cornerstone of intermediate , with electric models increasingly adopted to reduce emissions and operational costs, carrying millions of commuters daily in cities like and . Similarly, in countries such as and , tuk-tuks—another name for these three-wheelers—provide affordable, on-demand services, supporting livelihoods for drivers while addressing last-mile connectivity gaps in systems. For cargo transport, three-wheelers excel as delivery vehicles in tight urban spaces, enabling efficient goods movement where larger trucks are impractical, such as in narrow market areas or residential zones. Electric variants, like those from Mahindra, offer eco-friendly last-mile solutions with payloads up to 500 kg, minimizing emissions and fuel expenses for small businesses and operations in cities worldwide. Their maneuverability in congested environments makes them ideal for time-sensitive deliveries, such as groceries or parcels, often covering routes under 50 km per day. In personal and recreational contexts, lightweight three-wheelers provide , user-friendly options for daily and activities, appealing to individuals seeking alternatives to bicycles or for short trips. Models like folding electric trikes support urban with ranges up to 80 km, offering comfort for errands or work travel without the balance demands of two-wheelers. For , semi-recumbent designs facilitate leisurely rides in parks or trails, enhancing for older adults or those preferring low-speed, vehicles for hobbyist . As of , the global three-wheeler market reflects strong adoption, valued at approximately USD 11.28 billion and projected to grow at a (CAGR) of over 10% through the decade, driven by and trends. Electric three-wheelers, in particular, saw sales exceed 1 million units in 2024—a 10% increase from prior years—accounting for a significant share in regions, forming a significant portion of the two- and three-wheeler segment in urban areas. This uptake underscores their niche advantages in cost-effective, versatile transport solutions amid rising demand for sustainable mobility.

Historical Development

Early Innovations (Pre-1900)

The earliest known three-wheeled self-propelled vehicle was the fardier à vapeur, invented by French military engineer in 1769. This steam-powered artillery tractor featured a single front wheel for steering and two rear wheels for propulsion, driven by a boiler-mounted capable of pulling up to four tons at speeds of about 2-4 km/h. Demonstrated in public trials at the in , it represented a pioneering shift from animal-drawn transport but was limited by frequent boiler refills and poor stability, leading to an infamous crash into a wall during testing. In the late 19th century, European inventors built on steam technology while incorporating influences from the burgeoning craze and horse-drawn carriage designs, adapting lightweight frames and tiller steering for motorized . The 1881 Parkyns-Bateman steam , developed by Thomas Parkyns and . Bateman in , marked the first use of a petroleum-fired in a road vehicle, powering a twin-cylinder double-acting on a Cheylesmore pedal chassis weighing 220 lb. This prototype achieved reliable short-distance runs and was publicly demonstrated, highlighting the potential for compact, fuel-efficient three-wheelers despite challenges like startup time. Similarly, French inventor Gustave Trouvé created the first electric road vehicle in 1881 by mounting a electric motor and lead-acid batteries on a British Starley frame, allowing a top speed of 12 km/h during a notable public ride along Paris's Rue Valois to the . Transitioning to internal combustion, the 1886 , patented by Karl Benz in (DRP No. 37435), introduced the first practical three-wheeled automobile with a single-cylinder four-stroke engine producing 0.75 hp, mounted on a steel frame inspired by construction. Limited to a handful of units sold between 1887 and 1893, it reached speeds up to 16 km/h and underwent public road tests, including Bertha Benz's famous 1888 long-distance journey that proved its viability and spurred commercial interest. English inventor Edward Butler advanced this further with his 1888 Petrol Cycle, a three-wheeled forecar featuring a water-cooled 600 cc twin-cylinder four-stroke engine with spray and electric ignition, built by Merryweather & Sons. Though only prototypes were produced, its innovative and tiller steering influenced subsequent designs, with demonstrations emphasizing the three-wheeler's maneuverability over four-wheeled carriages. These pre-1900 innovations, primarily confined to , laid the groundwork for motorized mobility through experimental public showcases and patent filings, though high costs and technical hurdles restricted them to limited runs.

20th Century Evolution

The period immediately following saw a notable surge in three-wheeler production and innovation, driven by demands for affordable, efficient transport in reconstruction efforts. Military applications also emerged, with three-wheelers adapted as scout vehicles for ; early models like the three-wheeler gained popularity among airmen for their agility and compact size in post-war exercises. The 1930s and 1940s marked a boom in three-wheeler adoption, particularly for commercial purposes in and , as economies sought cost-effective alternatives to four-wheeled vehicles amid resource constraints. In , began manufacturing auto-rickshaws in the late 1940s, licensing designs from Italian firms like to produce three-wheeled passenger and cargo carriers powered by small single-cylinder s; by 1959, the Indian government authorized to scale up production, transforming urban transport with vehicles capable of carrying three passengers at speeds up to 40 km/h. In , delivery vehicles proliferated, such as the German Goliath Pionier introduced in 1931, a lightweight three-wheeler with a 198cc used extensively for urban goods transport until the late 1950s, and the Italian launched in 1947 as a versatile van for post-war logistics. These models emphasized and maneuverability, with the Ape's 99cc enabling payloads of up to 300 kg in narrow city streets. Post-World War II innovations further diversified three-wheelers, particularly in the , where the Reliant Motor Company launched the Regal 3/30 in as an affordable alternative. This fiberglass-bodied model, powered by a 747 cc all-aluminum overhead-valve inline-four developed by Reliant, offered seating for three and a top speed of 65 mph, selling over 20,000 units by the due to its low purchase price and tax advantages under classification. Concurrently, Volkswagen-based three-wheeler kits emerged in the and , utilizing chassis and s for custom trikes; these DIY conversions, popularized by enthusiasts in the and , provided rear-engine drive and stability for recreational use, with kits from companies like Trike Shop offering bolt-on rear axles for under $1,000. Regulatory changes in the 1960s and 1970s significantly influenced three-wheeler design and usage, particularly in the UK, where vehicles were initially classified as motorcycles to ease licensing and taxation. The Road Traffic Act of 1970 shifted classification for three-wheelers exceeding 600cc engine capacity or 410 kg unladen weight to the car category, requiring full car licenses and imposing stricter safety standards; this prompted manufacturers like Reliant to add features such as reverse gears—previously restricted for motorcycle licensees until a 1963 amendment—to comply and broaden market appeal. These reforms reduced the appeal of three-wheelers for budget buyers but spurred engineering improvements for stability and performance.

21st Century Advances

In the , three-wheelers have seen a significant shift toward and hybridization, particularly after 2010, as manufacturers responded to increasingly stringent global emissions regulations aimed at curbing urban and outputs. For instance, the European Union's progressive CO2 standards for light-duty vehicles, which extended influences to smaller categories, accelerated the adoption of battery-electric and three-wheeler models in markets like and , where sales of electric variants grew by over 20% annually in the mid-2010s due to incentives for low-emission commercial fleets. This transition was further propelled by rising fuel prices and pressures, with systems combining internal combustion engines with electric propulsion emerging as a bridge technology in regions like and , where three-wheelers serve as primary last-mile delivery vehicles. Advancements in digital integration have enhanced the utility of three-wheelers in environments, with GPS navigation and emerging features optimizing fleet operations for efficiency and safety. Post-2020, projects like the Elcano self-driving recumbent electric demonstrated practical through GPS, inertial measurement units, and sensors, enabling precise navigation and obstacle avoidance at costs under $5,000 per unit, paving the way for scalable deployment in mixed-traffic settings. In cargo applications, developments include modular electric three-wheeler pods designed for delivery fleets, such as Zen Mobility's Micro Pod, which supports up to 150 kg payloads with customizable cargo spaces and connectivity for route optimization, reducing delivery times in congested cities by integrating for real-time tracking. These features have been tested in pilot programs, where autonomous or semi-autonomous three-wheelers navigate geo-fenced zones, contributing to lower operational costs and emissions in logistics-heavy areas. The global market for three-wheelers has expanded notably into and since the early , driven by demand for affordable, versatile transport solutions in underserved urban and rural areas. In , electric three-wheelers have gained traction for their low operating costs and eco-friendly profiles, with markets in countries like and seeing government incentives boost adoption for passenger and cargo services, where functionality and affordability address gaps and support informal economies. Similarly, in , particularly and , the sector has grown due to the need for flexible, cost-effective options in peri-urban zones, with electric models comprising a rising share of sales amid economic fluctuations and , enabling small-scale entrepreneurs to access reliable transport without high upfront investments. This expansion has been steady, with three-wheeler services accelerating in these regions since the to meet rising mobility needs. As of 2025, three-wheelers are experiencing heightened integration into micromobility sharing programs, bolstered by regulatory frameworks emphasizing sustainability and reduced urban congestion. Initiatives like Milan's Scuter service, launched in November 2025, introduce shared three-wheeled electric scooters for public use, enhancing accessibility in dense European cities while aligning with EU mandates for zero-emission short-trip options. In the United States, programs such as Spin's shared micromobility fleet include three-wheeled adaptive scooters provided at no extra cost, supporting inclusive urban transport and complying with federal guidelines promoting low-barrier, sustainable alternatives to cars. Regulatory pushes, including the U.S. EPA's advocacy for shared micromobility to cut emissions and the EU's updated standards for electric light vehicles, have driven pilot expansions, with three-wheelers now central to multi-modal networks that prioritize energy efficiency and pedestrian safety. These efforts have resulted in over 30% of shared trips in select cities involving micromobility vehicles, underscoring three-wheelers' role in long-term sustainable transport.

Design Principles

Wheel Arrangements

Three-wheelers primarily feature two distinct wheel arrangements: the delta configuration, with one wheel at the front and two at the rear, and the tadpole configuration, with two wheels at the front and one at the rear. These setups influence structural engineering, load distribution, and handling characteristics, with the front wheels in tadpole designs bearing a larger share of the weight—typically around 66%—to enhance braking stability. In contrast, delta designs distribute weight such that the rear axle supports up to 66% during acceleration, aiding traction on varied surfaces. In the tadpole configuration, the front design often employs a solid or axle to connect the two front wheels, allowing for shared load-bearing while minimizing unsprung weight. for the front wheels typically incorporates systems, such as coil-over shocks or A-arms, to manage the higher vertical loads and provide better compliance compared to rigid setups. This arrangement reduces pitch during braking but requires precise alignment to avoid scrub during turns. The delta configuration features a drive shaft connecting the engine or motor to the rear axle, which is usually a rigid or semi-independent beam axle supporting the two rear wheels for efficient power delivery without a differential in non-high-performance models. Front steering geometry relies on a single telescopic fork, similar to motorcycle designs, with a caster angle of 20–30 degrees to ensure self-centering and straight-line stability at speed. This setup simplifies manufacturing but demands careful rake adjustment to prevent weave under load. Track width and wheelbase are critical for balance in three-wheelers, directly affecting the center of gravity (CG) position and rollover resistance. The wheelbase, defined as the distance between the front and rear axles (L = l₁ + l₂, where l₂ is the distance from the front axle to the CG and l₁ from the CG to the rear axle), should position the CG in the front third for tadpole designs (l₂ ≤ L/3) and in the rear third for delta designs (l₁ ≤ L/3) to achieve approximately 66% weight distribution on the dual-wheel axle for optimized load transfer during maneuvers. A basic stability criterion involves the CG height (h), where the vehicle remains upright if the track width (b) satisfies b > 2h, ensuring lateral sliding occurs before tipping; this can be rearranged as h < b/2 for design guidelines. For example, with a track width of 1.2 meters, the CG height should not exceed 0.6 meters to maintain inherent stability without active aids. Modern three-wheeler designs favor lightweight materials for frames and wheels to improve efficiency and handling. frames, often ASTM A36 with a yield strength of 250 , provide and low deformation (around 1.3 mm under load) but add weight—up to 41 kg for a typical —increasing . Aluminum alloys like 6061-T4, with a of 2700 kg/m³ and yield strength of 228 , reduce frame weight to 16–22 kg while offering comparable rigidity when thickness is adjusted, though they exhibit higher deformation (2–3 mm). Wheels commonly use aluminum alloy rims for corrosion resistance and reduced rotational mass, paired with spokes in utility models or carbon composites in performance variants for enhanced strength-to-weight ratios.

Lateral Stability

Three-wheeled vehicles exhibit inherent lateral primarily due to their narrow track width relative to the center of () height, which increases the risk of rollover during cornering compared to four-wheeled counterparts. This configuration results in a lower static (SSF), defined as the ratio of half the track width to the CG height, leading to a higher propensity for tip-over, with rollover crashes accounting for over one-third of fatalities and serious injuries in such vehicles. The theoretical rollover threshold speed v_{\text{threshold}} on a flat surface can be approximated by v_{\text{threshold}} = \sqrt{\frac{g \cdot b}{2 \cdot h}} where g is gravitational acceleration, b is the track width, and h is the CG height; this derives from the balance between centrifugal force and gravitational restoring moment, indicating the speed at which the inner wheel begins to lift off under steady-state turning. Several factors exacerbate this instability during motion. Higher speeds and sharper steering inputs reduce the margin to rollover by increasing lateral acceleration, while uneven load distribution—such as shifting cargo or passengers—raises the effective CG height and alters weight transfer, further diminishing stability. Road camber or depressions during turns can tilt the vehicle, amplifying the rollover risk by effectively narrowing the track or increasing the perceived lateral force. To mitigate these risks, designers employ strategies focused on passive enhancements to lateral balance. Increasing the track width through wider axles provides a broader base for load distribution, directly improving the and rollover threshold. Lowering the height via optimized and placement (in electric models) reduces the moment arm for overturning forces, enhancing overall resistance to tip-over. Additionally, installing anti-roll bars on the rear limits body roll during cornering by coupling movement, thereby increasing the rollover threshold speed by up to 20% in simulated maneuvers for three-wheeled configurations. Testing standards ensure these designs meet safety criteria through standardized evaluations of lateral . The International Organization for Standardization (ISO) 3888-1 specifies double lane-change maneuvers to assess handling and rollover avoidance at varying speeds, while ISO 4138 outlines steady-state circular tests to measure lateral acceleration limits before instability. Similarly, the Society of Automotive Engineers (SAE) J266 defines steady-state handling metrics, including understeer gradients and rollover thresholds, tailored for lightweight vehicles like three-wheelers to quantify under dynamic conditions.

Tilting Mechanisms

Tilting mechanisms in three-wheelers are active systems designed to enable the to into turns, mimicking the of two-wheeled motorcycles while maintaining the of an additional . These mechanisms typically involve coordinated of the front and rear sections, allowing the entire or specific axles to tilt in response to cornering forces, thereby distributing weight more evenly and preventing excessive lateral load transfer. Mechanical tilting systems often employ linkage configurations, such as four-bar or frames, to connect the front and rear assemblies. In a setup, upper and lower arms pivot to maintain alignment between the tilting components, ensuring smooth lean without significant or changes in the wheels. This design allows the two front wheels (in configurations) or the single front wheel to tilt in unison with the body, controlled by suspension elements like swing arms and tie rods. The operation of these systems relies on actuators to adjust the lean angle proportionally to the cornering forces. Hydraulic actuators, common in early implementations, use fluid pressure to extend or retract pistons connected to the linkage, matching the tilt to the vehicle's lateral . More advanced variants incorporate gyroscopic sensors or servo motors for precise , where sensors detect input and speed to preemptively initiate lean via electric actuators. The ideal lean angle can be approximated by the , where v is vehicle speed, r is turn radius, and g is (approximately 9.81 m/s²); this balances the against to minimize rollover . These mechanisms provide key benefits, including reduced rollover risk by increasing the effective track width through and improved high-speed handling by allowing tighter cornering without skidding or . In simulations, tilting vehicles demonstrate up to 50% higher rollover thresholds compared to non-tilting counterparts at equivalent speeds. Notable implementations include the Carver One, which uses a hydraulic Dynamic Vehicle Control (DVC) system to achieve leans up to 45 degrees, proactively tilting the cabin before full corner entry for enhanced . The scooter employs a linkage with hydraulic dampers to tilt its two front wheels, enabling confident low-speed maneuvers while locking upright for parking. By 2025, evolution toward electronic controls has advanced, with servo-assisted systems integrating IMU sensors and AI-driven adjustments for smoother, adaptive tilting in models like the CIXI Vigoz electric trike.

Propulsion Technologies

Internal Combustion Engines

Internal combustion engines have historically powered the majority of three-wheelers, providing reliable propulsion for urban transport, cargo, and recreational use. These engines are predominantly single-cylinder designs, operating on either two-stroke or four-stroke cycles, which balance simplicity, cost, and performance in compact vehicles. Two-stroke engines, known for their lightweight construction and higher , were common in earlier models due to easier and quicker acceleration, while four-stroke engines offer smoother operation and better durability for prolonged use. Displacements in three-wheeler internal engines typically from 50 in small models to around 650 in larger variants, allowing for outputs from approximately 5 kW to 20 kW depending on configuration. For instance, petrol engines often fall in the 145 to 236 for auto-rickshaws, delivering sufficient for loaded operation, while diesel variants can reach 470 for enhanced low-end power in cargo applications. Fuel efficiency generally achieves 30-60 MPG in mixed -highway cycles, influenced by load and driving conditions, with four-stroke models tending toward the higher end due to improved . Emissions compliance has evolved to meet standards like Euro 5 for light two- and three-wheelers since 2020, limiting hydrocarbons, , and oxides to reduce , though some markets still phase in these requirements. Engine integration in three-wheelers favors rear-engine placement in rear-wheel-drive configurations to optimize weight distribution and traction, particularly in delta layouts with two rear wheels, though mid-engine setups appear in some front-wheel-drive designs for better stability. This positioning aids in maintaining the low center of gravity essential for three-wheeled handling. By 2025, the dominance of internal combustion engines in three-wheelers is declining amid proposed urban bans, such as Delhi's draft EV Policy 2.0, which suggested a prohibition on new fossil-fuel registrations for three-wheelers starting August 2025, though implementation remains pending as of November 2025, accelerating the shift toward cleaner alternatives in high-density areas.

Electric Systems

Electric three-wheelers primarily rely on battery-powered systems for , offering a cleaner alternative to internal models with lower operating costs and reduced emissions. These vehicles integrate rechargeable batteries and electric motors to deliver efficient , particularly in cargo and passenger applications. Modern adoption has surged in regions like and , driven by government incentives and infrastructure development. As of 2025, electric three-wheeler sales have reached approximately 2.5 million units globally, primarily in , representing over 50% of new three-wheeler registrations in markets like . Battery technologies in electric three-wheelers predominantly feature lead-acid and lithium-ion types, each with distinct trade-offs in performance and cost. Lead-acid batteries, valued for their lower initial cost (typically ₹35,000–₹60,000), are heavier and bulkier, with cycle lives of 300–500 charges and full charging times of 8–10 hours, limiting daily operational efficiency. In contrast, lithium-ion batteries provide higher energy density, lighter weight, and longer lifespans of 2,000–3,000 cycles (5–7 years), enabling full charges in 2–3 hours and better overall vehicle handling. Typical battery capacities range from 5 to 15 kWh, as seen in models like the Mahindra Treo (7.4 kWh) and TVS King EV Max (9.2 kWh), balancing cost with practical usability. Electric motors in three-wheelers are commonly hub-mounted or central drive configurations, influencing and maintenance. Hub motors, integrated directly into the wheel (often the rear), simplify design and provide direct application, with outputs typically ranging from 1.5 to 8 kW in models like the QS273 V3 hub motor used in rickshaws. Central motors, positioned near the center and connected via a chain or belt, offer better and gearing for varied loads, achieving similar levels of 5–10 kW in such as the Altigreen neEV (8.25 kW peak). This setup enhances adaptability for three-wheeled stability under load. Performance metrics for electric three-wheelers emphasize practical and delivery, suiting short-haul routes and inclines. Certified ranges typically span 110–180 km per charge, with examples including the Bajaj E-TEC (178 km from 8.9 kWh) and Etrio Touro (157 km from 10.8 kWh), influenced by payload and terrain. Electric motors deliver instant high (e.g., 45–63 ), providing superior hill-climbing capability compared to engines, as the direct-drive nature allows consistent power without gear shifting delays. By 2025, advancements in electric three-wheeler systems focus on solid-state batteries and enhanced fast-charging integration, promising greater energy density and reduced downtime. Solid-state batteries, adopting solid electrolytes over liquid ones, enable higher capacities (up to 20 kWh in prototypes) and faster charging (under 1 hour for 80% capacity). The global solid-state battery market is projected to grow from $0.26 billion in 2025 to $1.77 billion by 2031, with potential benefits for electric three-wheelers. These innovations, led by manufacturers like CATL and Toyota, improve range to 200+ km while enhancing safety and cycle life, aligning with expanding public charging networks in emerging markets. Some models incorporate brief solar supplementation for auxiliary power, though primary reliance remains on grid charging.

Alternative Power Sources

Steam-powered three-wheelers represent an early form of motorized transport, with the first self-propelled example being Nicolas-Joseph Cugnot's 1769 fardier à vapeur, a three-wheeled that achieved speeds of about 2-4 km/h but suffered from limitations and instability. Later 19th-century designs, such as Lucius Copeland's 1888 steam velocipede, improved on this by reaching average speeds of 16 km/h over 48 km ranges using a lightweight , though startup times exceeded 30 minutes. Modern recreations remain rare due to persistent efficiency challenges, where even advanced designs achieve only 70-80% in converting fuel to steam, limited by losses and the need for high-pressure operation that risks without sophisticated controls. Experimental hobbyist builds, like wood-fired steam tricycles in the 2020s, demonstrate feasibility for short demonstrations but highlight ongoing issues with weight, water consumption, and emissions. Solar-powered three-wheelers integrate photovoltaic panels directly into the body for auxiliary propulsion, typically yielding 0.3-0.7 kW under peak conditions to support low-speed urban use. The Aptera solar electric vehicle, a two-seat prototype entering validation in 2025, features 700 W of embedded panels that generate up to 64 km of daily range in sunny climates, enabling top speeds of 163 km/h when combined with battery power, though solar alone limits it to auxiliary roles. An academic prototype recumbent tricycle with a 330 W roof-mounted panel achieved 32 km/h maximum speed and 50 km range on a full sunny day without grid charging, but performance drops significantly in low-light or high-latitude areas due to panel efficiency below 20%. These designs prioritize lightweight frames and aerodynamics but remain confined to prototypes, as panel outputs insufficiently support highway speeds or heavy loads without supplemental batteries. Wind-powered three-wheelers, often configured as land yachts, harness sails or turbines for on flat terrains like beaches or dry lakes, offering zero-fuel operation in breezy conditions. The TrikeBuggy land sailer uses a three-wheeled kite buggy base with adjustable sails up to 3.7 m², reaching 64-100 km/h in 16-32 km/h winds through manual , suitable for recreational cruising but requiring skilled handling to avoid . Power generation follows the kinetic wind energy P = \frac{1}{2} \rho A v^3, where \rho is air density (about 1.2 kg/m³), A is sail area, and v is , illustrating how scales cubically with to enable high speeds but drops sharply in light winds below 10 km/h. Turbine-assisted variants, like experimental downwind vehicles, amplify this by converting to for wheels, though practical models prioritize sails for simplicity. As of 2025, alternative power sources for three-wheelers remain niche or educational, with limited by safety and efficiency hurdles, to low-volume prototypes like Aptera's, and wind to recreational land yachts, far from mainstream adoption amid the dominance of electric systems.

Specialized Variants

All-Terrain Models

All-terrain three-wheelers represent a niche within design, optimized for traversing uneven, unpaved landscapes through structural and mechanical enhancements that prioritize durability and maneuverability over on-road efficiency. These vehicles typically feature elevated with high ground clearance—often exceeding 10 inches in modern examples—to clear rocks, ruts, and debris, reducing the risk of damage during operation. Reinforced frames, constructed from high-strength or aluminum alloys, provide the rigidity needed to endure impacts from jumps or collisions with obstacles, while independent or long-travel systems absorb shocks from rough surfaces. Knobby or wide tires, with aggressive tread patterns, enhance grip on , , , and by increasing surface contact and preventing slippage, as exemplified in early models with low-pressure designs for flotation over soft . In terms of configurations, all-terrain three-wheelers commonly adopt a layout with a single front for and dual rear wheels to distribute weight and maximize traction, allowing better climbing ability on inclines and when carrying loads. This rear-biased setup channels engine power primarily to the back , improving propulsion in slippery conditions. Many incorporate locking differentials in the rear, which can be manually or automatically engaged to synchronize speeds, ensuring equal delivery even if one loses with the —a critical feature for escaping bogs or negotiating steep trails. Alternative configurations, with dual front wheels and a single rear, appear in some contemporary designs for enhanced lateral at higher speeds, though they sacrifice some rear traction compared to traditional setups. These vehicles find primary applications in recreational , where their compact footprint and agile handling enable riders to navigate narrow, winding paths in forests, mountains, or dunes that larger four-wheeled ATVs might struggle to access. Enthusiasts value their lightweight construction—often under 300 kg—for quick acceleration and ease of , making them ideal for weekend adventures or competitive events like hill climbs. In contexts, three-wheelers serve as scout vehicles for patrols, offering rapid deployment in forward areas to small teams, , or casualties over contested ; for instance, the Belarusian Konung , equipped with a mounted , supports by carrying 4-5 personnel while maintaining high in varied environments. Propulsion in rough benefits from these configurations, as rear-wheel emphasis provides the needed for low-speed crawling without excessive complexity. The evolution of all-terrain three-wheeler models reflects advancements in materials, powertrains, and safety, beginning with the pioneering Yamaha Tri-Moto series in the late 1970s. Introduced in 1979, the YT125 featured a 123 cc air-cooled two-stroke engine producing 8.0 PS, paired with snorkel air intake for water fording and wide balloon tires for superior off-road flotation, marking Yamaha's entry into the ATV market and setting standards for recreational durability. Subsequent iterations, like the YT175 and YTM225DX through the 1980s, scaled up displacement to 225 cc while retaining the core delta configuration, influencing competitors such as Kawasaki's KLT series with optional locking differentials. By the 2020s, the shift toward electrification culminated in models delivering instant torque from battery-powered motors for emission-free trail exploration and scouting, while inheriting rugged frames and high-clearance designs from earlier gas-powered forebears.

Utility and Cargo Versions

Utility and cargo three-wheelers are designed primarily for tasks, featuring robust frames and configurations that prioritize handling over passenger comfort. These vehicles typically accommodate load capacities ranging from 200 kg to 1000 kg, often equipped with open beds, enclosed compartments, or attachments to secure goods during transit. For instance, models like the Mahindra Treo Zor offer payloads up to 550 kg, while heavy-duty variants such as the Vikram 3-Wheeler support up to 1000 kg. Key features enhance their practicality for work environments, including enclosed cabs for driver protection against weather and dust, hydraulic dump mechanisms for efficient unloading of bulk materials, and electric power assists in recent 2025 models to reduce operator fatigue. Electric variants integrate lithium-ion batteries and regenerative braking for extended range in urban operations. These adaptations, including rear-wheel-dominant setups for stability under uneven loads, make them suitable for demanding logistics. In markets worldwide, utility three-wheelers excel in last-mile delivery within congested cities, where their compact size allows access to narrow streets inaccessible to larger vehicles. They also serve in rural areas, transporting produce and supplies over short distances with minimal infrastructure needs. Prominent adoption occurs in regions like and , driven by growth and subsidies for electric models. Efficiency advantages position these vehicles as cost-effective alternatives to , with operating costs per kilometer 20-50% lower due to reduced consumption, maintenance, and parking expenses in urban settings. For example, electric three-wheelers achieve costs around $0.03 per km compared to $0.12 for small , enabling higher profitability for small businesses in . This edge stems from their lower , including zero-emission compliance benefits in regulated areas.

Recreational and Personal Mobility

Recreational three-wheelers emphasize leisure and personal enjoyment, offering stable platforms for touring and urban exploration without the balance demands of two-wheeled motorcycles. Touring models like the series feature a reverse trike configuration with two front wheels for enhanced stability during long rides, appealing to riders seeking adventure and comfort. Fun urban scooters, such as the and Yamaha Tricity, provide agile handling in city environments, combining scooter convenience with three-wheel security for casual outings. These vehicles cater to individuals or small groups, fostering relaxed mobility for sightseeing or social rides. Key features prioritize user comfort and entertainment, including ergonomic seating, spacious floorboards, and integrated audio systems for immersive experiences. The Can-Am Spyder RT, for instance, offers adjustable windscreens, ample storage up to 47 gallons, and a premium , enabling extended with multimedia integration. Urban models like the 530 incorporate , keyless ignition, and a 7-inch TFT with , supporting speeds up to 150 km/h for dynamic yet secure urban fun. High-performance touring variants, such as the Spyder F3, achieve top speeds around 200 km/h, blending thrill with accessibility for recreational enthusiasts. In 2025, recreational three-wheelers increasingly incorporate app-connected technologies for enhanced shared experiences, such as GPS tracking, real-time performance monitoring, and social ride-sharing platforms. These integrations allow users to plan group tours or access community events via smartphone apps, boosting connectivity in leisure activities. Electric variants are gaining traction, with smart features like remote diagnostics promoting sustainable, app-linked recreation. Accessibility adaptations make these vehicles inclusive for users with disabilities, particularly through tilting mechanisms that assist during turns for safe, enjoyable rides. Models like specialized adaptive tricycles incorporate tilt systems to support riders with mobility impairments, enabling independent recreational participation. Tilting enhances safe fun by mimicking natural leaning without full body control demands.

Legal and Safety Considerations

Vehicle Registration

Three-wheelers are classified differently across jurisdictions, often as motorcycles or light vehicles depending on their design and powertrain. In the United States, the (DMV) in states like typically categorizes three-wheeled vehicles as motorcycles if they have no more than three wheels in contact with the ground and weigh less than 1,500 pounds unladen, requiring a Class C license for operation. In the , three-wheelers fall under the L5e category for powered tricycles, defined as three-wheeled vehicles with a maximum design speed greater than 45 km/h, treated as light motor vehicles subject to type-approval under Regulation (EU) No 168/2013. Registration requirements for three-wheelers generally include a unique (VIN) for identification and traceability, emissions testing where applicable based on engine type and local air quality standards, and mandatory coverage to ensure financial responsibility in case of accidents. In the U.S., VIN verification is required for out-of-state or new vehicles during initial registration, while emissions inspections apply to certain three-wheelers classified as motorcycles in states like , though many are exempt if under specific displacement limits. Insurance must meet minimum liability requirements set by state law, such as in where proof of coverage from a licensed carrier is verified at registration. Regional variations influence registration processes, particularly for commercial uses like rickshaws in , where operators must obtain a commercial permit from the (RTO) in addition to standard vehicle registration under the . As of 2025, 's policies provide exemptions for electric three-wheelers, including 100% waiver of and registration fees for the first several years in states like and , alongside relief from stage carriage permit requirements for electric auto-rickshaws to promote adoption. In the , L5e vehicles require national registration plates and compliance with harmonized technical standards, while U.S. states like mandate insurance and helmet use but classify them flexibly under existing or automobile frameworks. Annual registration fees and renewal costs for three-wheelers typically range from $50 to $500, varying by region, vehicle age, and power source. In the U.S., fees for motorcycle-classified three-wheelers average $50–$150 annually depending on the state, with additional supplements like Nevada's $6 rider safety fee. In , standard annual renewals cost around ₹500–₹1,000 ($6–$12), but 2025 updates doubled fees for vehicles over 20 years old to ₹5,000 ($60) for three-wheelers, while electric models often receive full exemptions for 5 years. EU fees differ by but generally fall within €50–€300 ($55–$330) for L5e vehicles, excluding value-added taxes.

Safety Regulations and Standards

In the United States, higher-speed three-wheelers are often regulated as motorcycles under FMVSS No. 123 for controls and displays, with limited crashworthiness requirements compared to four-wheeled vehicles. In Europe, three-wheeled motor vehicles fall under UN Economic Commission for Europe (ECE) regulations, where ECE R53 governs the installation of lighting and light-signalling devices, requiring adequate headlamps, position lamps, direction indicators, stop lamps, and rear registration plate lamps to ensure visibility. For braking systems, ECE R78 specifies performance requirements for two- and three-wheeled vehicles, including minimum stopping distances, fade resistance, and combined braking efficiency, with adaptations for three-wheeled configurations. Mandatory safety features for three-wheelers emphasize stability and occupant protection, particularly given their narrower track width. In the , anti-lock braking systems () have been required since 2016 for new heavy three-wheeled vehicles (category L5e, over 1,000 kg) to prevent wheel lockup and improve control during emergency stops. Airbags are not universally mandated but are incorporated in some tilting three-wheeler models, such as the One , which includes a front alongside side curtain airbags to mitigate impact forces in rollover-prone scenarios. Helmet laws apply variably; in the , 19 states require for all motorcycle operators and passengers, including those on open three-wheelers, while 28 states mandate them only for riders under 21, with exemptions for enclosed autocycles. Crash testing for three-wheelers focuses on rollover dynamics due to their inherent instability compared to four-wheeled vehicles, though no dedicated global standard exists equivalent to the (NCAP) for passenger cars. In the , the (NHTSA) does not assign rollover resistance ratings to three-wheelers classified as motorcycles, but engineering studies highlight the need for specific tests simulating untripped rollovers, with tilt-table assessments used to evaluate static stability factors. As of 2025, NHTSA is reviewing enhanced stability testing for three-wheelers classified as motorcycles. Upcoming 2025 updates address electric three-wheeler safety; the revised FMVSS No. 305a requires electric powertrains to maintain integrity post-crash, preventing electrolyte spills and reducing fire risks from high-voltage batteries, applicable to multipurpose passenger vehicles including qualifying three-wheelers. In , Automotive Industry Standards (AIS) 156 and AIS 038, effective September 2025, mandate enhanced battery testing and fire suppression features for electric vehicles, including three-wheelers, to curb incidents amid rising adoption. Injury statistics underscore the elevated risks associated with three-wheelers. NHTSA data indicates that rollover crashes account for a disproportionate share of fatalities in two- and three-wheeled vehicles compared to four-wheeled passenger cars, where rollovers represent only about 3% of crashes but up to 30% of fatalities; for motorcycles including three-wheel configurations, single-vehicle rollovers occur in approximately 40-50% of fatal incidents due to narrower wheelbases and higher centers of gravity. This contrasts with four-wheelers, where rollover involvement is around 20% in fatal single-vehicle crashes, highlighting the need for targeted stability regulations.

Operational Limitations

Three-wheelers, particularly non-tilting models, face speed restrictions in numerous jurisdictions to enhance safety and manage traffic flow. In , three-wheelers are typically capped at a maximum design speed of 50 km/h, aligning with regulations under the amendments that classify them for urban and low-speed operations. Similarly, in the , three-wheeled mopeds under category L2 are limited to 45 km/h, while L5e powered tricycles have maximum design speeds greater than 45 km/h with no upper limit but remain restricted on high-speed roads. In the United States, many three-wheelers classified as low-speed vehicles are confined to 25-35 mph (40-56 km/h) on roads with matching limits, preventing access to faster thoroughfares. Road access for three-wheelers is often curtailed on high-speed infrastructure to mitigate collision risks with larger vehicles. In and the National Capital Region, bans prohibit two- and three-wheelers from expressways such as the Delhi-Gurugram section of NH-48 and the , enforced by the since 2024 for safety reasons. Urban areas like allocate dedicated lanes or zones for three-wheelers, such as e-rickshaws, to separate them from main traffic and reduce congestion, though enforcement varies and dedicated infrastructure remains limited. Operational constraints extend to environmental and loading conditions, where stability concerns limit usage. Non-tilting three-wheelers exhibit reduced performance in due to heightened hydroplaning risks and lower center-of-gravity compared to four-wheeled vehicles, often advising operators to avoid travel or reduce speeds significantly during wet . Load limits further exacerbate this, as exceeding capacities—typically 300-500 for variants—compromises handling in adverse conditions, prompting regulatory advisories for lighter loads in inclement to prevent . As of 2025, electric vehicle incentives in have begun alleviating some urban operational bans for compliant three-wheelers. The PM E-DRIVE scheme provides subsidies up to ₹25,000 per electric three-wheeler, enabling access to previously restricted zones in cities like by exempting from phasing-out mandates on fossil-fuel models and extending policy benefits without new bans on auto-rickshaws. This shift supports greater urban integration for EV three-wheelers, countering earlier restrictions on slow-moving vehicles.

Notable Examples

Front-Wheel-Dominant Models

Front-wheel-dominant three-wheelers, characterized by their configuration with two steering wheels at the front and a single at the rear, have been influential in both historical and modern contexts for their compact design and maneuverability. These designs offer enhanced steering precision and braking stability due to the dual front wheels. The , introduced in 2008 by (BRP), exemplifies a performance-oriented three-wheeler. The lineup features a 998 cc producing around 100 horsepower in initial models, evolving to 115 hp in the 2025 RT variants with and optional vehicle stability systems. The 2025 RT models include enhanced touring amenities, such as 47 gallons of storage and , appealing to adventure riders; global sales have exceeded 100,000 units since launch. Another prominent example is the , launched by Polaris Industries in 2015 as a high-performance autocycle. This three-wheeler uses a 2.0-liter ProStar inline-four engine delivering 178 horsepower and 122 lb-ft of , paired with a five-speed manual or AutoDrive transmission, achieving 0-60 mph in about 4.9 seconds (SLR model) and a top speed of 125 mph. With a curb weight of approximately 1,650 pounds, it offers car-like seating and enclosed cockpit for two, emphasizing sporty handling and customization; over 50,000 units have been sold annually in recent years, contributing to its popularity in the U.S. recreational market.

Rear-Wheel-Dominant Models

Rear-wheel-dominant three-wheeler models, characterized by a single front wheel and rear wheels in a configuration, offer enhanced for load-bearing and applications while maintaining maneuverability in and scenarios. These designs prioritize rear support for better , particularly in vehicles, and have evolved to include sporty variants with improved handling. The configuration provides a lower risk of rollover during straight-line compared to front-dominant setups, making it suitable for both commercial and experimental uses. The , produced by the Reliant Motor Company in the from 1953 to 1973, exemplifies an early influential design in this category. This fiberglass-bodied vehicle, powered by a 747 cc producing around 25 horsepower, was marketed as an affordable alternative to four-wheeled cars and achieved sales of approximately 130,000 units during its production run, making it one of the most successful three-wheelers of its era. Its popularity stemmed from tax advantages for three-wheeled vehicles in the UK, allowing it to serve as a practical option for small businesses and personal use until stricter European safety regulations in the contributed to the phase-out of such models, as they struggled to meet four-wheeled car standards while retaining classification. The , an iconic Italian cargo three-wheeler, exemplifies the utility-focused delta design since its introduction in 1948. Developed by as a post-World War II reconstruction tool derived from the scooter platform, it features a compact body with a single front wheel and two rear wheels for stable payload transport. Early models used 50cc two-stroke engines delivering around 2-3 horsepower, enabling top speeds of about 40 km/h while carrying up to 300 kg of cargo; production has continued with modern variants incorporating fuel-injected 50cc four-stroke engines for emissions compliance, maintaining its role in small-scale delivery across and beyond. Over 75 years, more than 3 million units have been produced, underscoring its enduring market presence despite a shift in manufacturing to in 2024. In contemporary applications, the from Indian manufacturer represents a modern evolution of rear-wheel-dominant three-wheelers, particularly in utility and roles across . Launched in the early and continually updated, the RE features a rear-mounted —typically a 236 cc petrol, CNG, or 470 cc diesel unit—and is widely adapted for and in densely populated urban areas. By fiscal year 2025, reported total three-wheeler sales of 668,657 units, with the RE lineup dominating the domestic market and contributing significantly to the company's 35% share of India's overall three-wheeler segment, which exceeded 1 million units annually. Electric variants, such as the RE E-TEC introduced in recent years with an 8.9 kWh offering up to 178 km , have gained traction amid India's push for , though they accounted for about 50,000 units in FY2025 as the segment transitions from internal combustion dominance. These adaptations highlight the RE's versatility, with versions featuring reinforced rear platforms for loads up to 700 kg, making it a staple for last-mile delivery in countries like , , and . For performance-oriented examples, the , revived by the in 2012 after an 80-year hiatus from the brand's original model, showcases the layout's potential in recreational driving. This hand-built employs a 2.0-liter from , delivering 115 horsepower and 140 Nm of through a five-speed to the dual rear wheels, achieving 0-100 km/h in approximately 6 seconds despite a curb weight under 600 kg. Production continued until 2021, emphasizing the design's appeal for enthusiasts seeking open-top, lightweight motoring with motorcycle-like handling, though limited to around 100 units annually due to its artisanal construction. Experimental models like the FUV push the boundaries of electric three-wheelers, though its layout (moved to front section) adapts principles for . However, was suspended in 2023 amid financial challenges, and the company ceased operations in 2024. The market for road-legal three-wheelers in has seen steady growth, driven by demand for versatile, street-legal alternatives to ATVs and motorcycles, with the U.S. leading due to recreational and adoption. The segment is projected to grow at a CAGR of 5.33% from 2025 to 2030, fueled by electric innovations and regulatory approvals for autocycles.

Hybrid and Innovative Designs

Hybrid designs in three-wheelers represent a fusion of motorcycle agility and enhanced stability, exemplified by Yamaha's Leaning Multi-Wheel (LMW) technology. The , debuted in and entering production in 2018, features two front wheels connected via a parallelogram linkage that enables leaning in unison with the , blurring the boundaries between traditional and three-wheelers by providing superior traction and cornering confidence without sacrificing sporty handling. This system divides the front tire workload, reducing the risk of slippage on varied surfaces and improving braking performance, as the independent cantilevered suspensions allow each wheel to follow road contours independently. By incorporating LMW, the Niken achieves three-wheeler stability while maintaining a lean angle akin to two-wheeled vehicles, influencing subsequent models like the Tricity series. Innovative electric variants push efficiency and urban adaptability, with the ElectraMeccanica Solo serving as a notable single-seat example. Launched in 2018, the Solo was a battery-electric three-wheeler designed for city commuting, offering a 100-mile range and a price under $18,500, classified as a motorcycle to simplify regulations. Its narrow profile and rear-wheel drive prioritized maneuverability in congested areas, targeting individual riders and delivery services, though production ceased in 2023 following a full recall due to power module failures affecting nearly all units. Despite its commercial challenges, the Solo demonstrated the viability of compact, single-passenger EVs in three-wheeler form, inspiring later designs focused on affordability and zero-emissions urban transport. Futuristic advancements incorporate autonomy for applications, as seen in Omega Seiki Mobility's Swayamgati, unveiled in October 2025 as the world's first production-ready autonomous electric three-wheeler. Equipped with , AI-driven navigation, and real-time obstacle detection, the Swayamgati targets last-mile delivery in urban settings, completing Phase 1 pilots on a 3-km route with seven stops. Priced at approximately ₹4.14 for the variant, it features a retrofit system for existing three-wheelers, enabling driverless operation in controlled environments during Phase 2 trials in 2025. This model advances sustainable by reducing human intervention in high-congestion zones. Unique aspects of modern three-wheelers include modular configurations and AI-enhanced stability aids, enhancing versatility for shared urban mobility. The RDS x fuRo Raptor, showcased at the 2025 , is a (54 kg) electric three-wheeler with interchangeable upper modules for , , or custom uses, supporting a 40 km/h top speed and 40 km range while incorporating a tilting mechanism for balanced turns. Similarly, Project Urban 2|3 offers modular electric platforms with customizable B2B modules, emphasizing charging flexibility and German engineering for shared fleets. stability systems, such as active tilt in narrow tilting vehicles, mitigate rollover risks through direct or steering-based mechanisms, with recent developments focusing on low-speed electric models for safer cornering. These innovations prioritize adaptability and safety, integrating tilting briefly to reference broader design principles without altering core configurations.

References

  1. [1]
    How Three-wheel Cars Work - Auto | HowStuffWorks
    Mar 4, 2009 · The world's first car may have been a three-wheeler, or trike design, but it was by no means the last. In fact, three-wheel cars were once very ...Missing: definition | Show results with:definition
  2. [2]
    Three-wheeled Motor Vehicles - NY DMV
    A three-wheeled motor vehicle is defined as any vehicle with two wheels in the front and one wheel in the rear, a steering mechanism, and seating.
  3. [3]
    [PDF] Best Practices for the Regulation of Three-Wheel Vehicles - AAMVA
    They include varied configurations, including the trike, reverse trike, sidecar motorcycle, and what the Three-Wheel Vehicle Working Group (3WVWG) has defined ...
  4. [4]
    A Brief History Of Three-Wheeled Cars - Green Car Reports
    Aug 22, 2014 · Several other manufacturers introduced three-wheel vehicles between the early 1900s and the middle of the century, but it was the after-effects ...
  5. [5]
    A History of Three-Wheeled Cars - CarGurus.co.uk
    It's been around in various forms since 1909, when H.F.S Morgan built himself a three-wheeled runaround. A year later, he began selling them and, within three ...The World's First... · The Early Days Of Motoring · Latter-Day Microcars And...<|control11|><|separator|>
  6. [6]
    A brief history of three-wheeled vehicles - Influx - Adrian Flux
    The Benz Patent-Motorwagen was initially powered by a single-cylinder four-stroke engine situated at the rear of its three-wheeled chassis. Although very ...Missing: definition | Show results with:definition
  7. [7]
    Motorised three-wheeler taxis | Climate Technology Centre & Network
    Three-wheeler taxis have a variety of names in different countries, including auto-rickshaws, tuk-tuks, trishaws, autos, rickshaws, autoricks, bajajs, ricks, ...<|control11|><|separator|>
  8. [8]
    What is a Three-Wheel Tricycles vehicles? Types and Uses Explaind
    Oct 20, 2025 · Discover the different types of three-wheel vehicles, including cargo trikes, agricultural models, and electric trikes Learn how they are ...
  9. [9]
    Best 3-Wheel Vehicles - U.S. News Cars
    Aug 12, 2024 · Looking for fun on three wheels instead of four? Take a look at our list of the 10 best 3-wheel vehicles on the market.
  10. [10]
    Autocycles FAQs - Commonwealth of Pennsylvania
    An autocycle is a three-wheeled motorcycle that has a steering wheel and seating that does not require the operator to straddle or sit astride. These vehicles ...
  11. [11]
    FHWA 13-Vehicle Category Classification
    Nov 7, 2014 · This category includes motorcycles, motor scooters, mopeds, motor-powered bicycles, and three-wheel motorcycles.
  12. [12]
    Interpretation ID: nht73-4.21 - NHTSA
    ... car" under the Federal Motor Vehicle Safety Standards. Currently all three-wheeled vehicles are classified under our regulations as "motorcycles." Under a ...<|separator|>
  13. [13]
    Two- and Three-Wheeled Vehicles - Federal Register
    Jun 15, 2005 · [A] vehicle driven or drawn by mechanical power and manufactured primarily for use on the public streets, roads, and highways, but does not ...
  14. [14]
    [PDF] Designing Stable Three Wheeled Vehicles,
    A major point is that the wheelbase, track and CG location should be treated as design decisions, to be specified, using the procedures described herein. Once ...
  15. [15]
    [PDF] Assessing the Viability of Using Autorickshaws for Urban Freight ...
    In India, three-wheeler autorickshaws are predominantly of the delta configuration, with one wheel in the front and two wheels in the rear. Despite their ...
  16. [16]
    Three Wheelers - Cargo & Passenger Vehicle - TrucksDekho
    Cargo three-wheeler offers approximately in the range of up to 500-600 kg of payload with a GVW range of 900-1300 kg.<|separator|>
  17. [17]
    Tadpole Configuration for Three Wheeled Vehicles 2020-28-0359
    30-day returnsSep 24, 2020 · Tadpole configuration has better cornering stability with both front wheels offer resistance to the cornering forces.
  18. [18]
    [PDF] Design of the Tadpole Type Three-Wheel Vehicle with ... - IRJET
    Delta Configuration. The tadpole trike has the two wheels at the front, the delta trike has the two wheels at the rear. One of the original and best known ...
  19. [19]
    [PDF] Dynamics of a Three-Wheel Vehicle with Tadpole Design - CORE
    This study investigates the effect of applying camber angle on the handling, lateral stability, and ride comfort of a three-wheeled vehicle, which has two ...
  20. [20]
    Tadpole Configuration for Three Wheeled Vehicles - ResearchGate
    Oct 11, 2025 · Three-Wheeled Vehicle with tadpole configuration is a vehicle which has one wheel at the back and two wheels at the front. This vehicle promotes ...Missing: layouts | Show results with:layouts
  21. [21]
    [PDF] Recumbent Trike Design Primer - discourse-cdn.com
    Recumbent trikes come in two configurations: Tadpole (two wheels forward, one aft) and Delta (one wheel forward, two aft). Tadpole has better handling and ...<|control11|><|separator|>
  22. [22]
    Trike Steering Geometry - IHPVA
    A tadpole configuration uses the same steering geometry design principles as an automobile. Geometry considerations such as Caster, Camber, and Toe-End exist ...
  23. [23]
    India's EV Revolution is on 3 Wheels: Future of Intermediate Public ...
    Aug 29, 2025 · Three-wheelers are leading India's shift to electric vehicles · L5M ICE auto rickshaw growth has been more concentrated in western and southern ...
  24. [24]
    [PDF] ENABLING THE SHIFT TO ELECTRIC AUTO-RICKSHAWS - WRI India
    motorised, three-wheeled vehicles that are used for passenger transport, predominantly in parts of Africa, and South and Southeast Asia. Typically used as ...<|separator|>
  25. [25]
    MAX-EV3 Delivery Vehicle | Westward Industries
    The MAX-EV3 is a compact, 3-wheel electric delivery vehicle with a 300lb payload, 120-mile range, and is ideal for urban delivery, with a 2.5 steel chassis.
  26. [26]
    Mahindra Three Wheeler Cargo - Electric Rickshaw for a Greener ...
    Mahindra ZOR GRAND DV: This e-cargo vehicle comes with a delivery box of 4 m³ and a payload capacity of 418 kg, in addition to all the features mentioned ...
  27. [27]
    3 Wheeler Delivery Vehicle: Efficient & Compact Cargo Solution
    Rating 5.0 (63) · Free 14-day returnsLooking for a reliable 3 wheeler delivery vehicle? Discover compact, fuel-efficient options perfect for urban logistics. Click to explore top-rated electric ...
  28. [28]
    https://mahindralastmilemobility.com/three-wheeler-cargo
  29. [29]
    https://www.accio.com/plp/3-wheeler-delivery-vehicle
  30. [30]
    Personal Activity Vehicle PAV Tricycle from Worksman Cycles
    Free deliveryThe PAV3 is a comfortable, semi-recumbent tricycle with adjustable padded seat, coaster and drum brakes, and optional three-speed coaster brake.Missing: leisure | Show results with:leisure
  31. [31]
    Introducing Doosan 3-Wheel Forklifts into Your Business
    Oct 22, 2019 · A three-wheeled forklift is ideal for transporting goods around a warehouse due to its small turning circle. This means that they are able to operate in even ...Missing: utility | Show results with:utility
  32. [32]
    Toyota Material Handling Releases Upgraded 3-Wheel Electric Forklift
    Oct 11, 2022 · Toyota Material Handling launches updated 3-Wheel Electric Forklift adding 30 advanced features, including improved ergonomics, operator assist features, and ...
  33. [33]
    3-Wheel Electric Forklifts | Southeast Industrial Equipment Inc.
    The Toyota 3-Wheel Electric Forklifts are multi-use forklifts that lead the industry in run time, travel speeds and lift / lowering speeds.Missing: three- | Show results with:three-
  34. [34]
    Three-Wheeler Market Size, Share & Growth Report by 2033
    The global three-wheeler market size was USD 10.21 billion in 2024 & is projected to grow from USD 11.28 billion in 2025 to USD 25.03 billion by 2033.
  35. [35]
    Trends in other light-duty electric vehicles – Global EV Outlook 2025
    Despite the global three-wheeler (3W) market shrinking 5% from the previous year, electric 3W sales grew more than 10% to surpass 1 million vehicles in 2024.
  36. [36]
    Three-Wheeler Market Size, Trend, analysis and forecast (2025-2032)
    Global Three-Wheeler Market size was valued at USD 16.09 Bn. in 2024 and the total Three-Wheeler Market revenue is expected to grow by 10.4% from 2025 to ...
  37. [37]
    The Automobile before 1915
    Nov 7, 2005 · A French artillery officer, Nicholas Joseph Cugnot, built and ran a 3 wheeled carriage powered by a steam engine in 1769, but which ran off the ...
  38. [38]
    Thomas Parkyns - Graces Guide
    Sep 2, 2020 · The steam tricycle was designed and built by Parkyns of Beckenham and Arthur H. Bateman of East Greenwich, and weighed 220lb with a small steam ...
  39. [39]
    First electric road vehicle | Guinness World Records
    The first electric road vehicle was built by French inventor Gustave Trouvé in 1880–81. It was a British-made Coventry pedal-powered tricycle.<|separator|>
  40. [40]
    Benz Patent Motor Car: The first automobile (1885–1886)
    The 1886 three-wheeled Benz Patent Motor Car, model no. 1, is regarded as the first automobile (patent no. 37435).Missing: pre- | Show results with:pre-
  41. [41]
    1923 Ner-a-Car Model B - The Online Bicycle Museum
    Carl Neracher acquired a patent for the Neracar in the USA in 1919 and with financing help from razor maker King C. Gillette began production 2 years later. ...Missing: three- | Show results with:three-
  42. [42]
    Road Test: 1923 Ner-A-Car | The Vintagent
    Jan 30, 2018 · The Ner-A-Car was the most successful hub-center steered motorcycle in history, with over 16000 sold. We tell the story, and ride one!
  43. [43]
    threewheeler military car - Great War Forum
    Apr 29, 2012 · The early Morgans were three wheelers and seem to have been a hit with airmen / pilots - could that be the WW1 link especially with the airbase ...
  44. [44]
    #IconsOfIndia: How an Idea, an Ad & Some Italians Got us the Auto ...
    Jan 25, 2019 · “In the beginning, we were licensed to make 1,000 scooters and auto rickshaws per month. In 1962, we applied to increase manufacturing capacity ...
  45. [45]
    (PDF) The History of Bajaj Rickshaw Vehicles - ResearchGate
    The article presents a brief outline of the history of Bajaj rickshaw vehicles industry. Vehicle design, the incorrect usage of petrol and lubricating oil ...
  46. [46]
    Three-Wheeled Cars Throughout History - Monochrome Watches
    Dec 26, 2020 · Throughout history, there have been plenty of attempts to convince the people that THREE is also a good option, perhaps even the best!Davis Divan · Reliant Regal/robin · Morgan 3-WheelerMissing: definition | Show results with:definition
  47. [47]
    Reliant history: 1935–2002 - Classics World
    Jan 31, 2023 · With the new design licensed, Williams began production of his three-wheeled van in the summer of 1935 at a disused bus depot in Watling Street, ...
  48. [48]
    In praise of a great British underdog – the Reliant Robin | Hagerty UK
    Mar 25, 2022 · Reliant grew rapidly and became Britain's second biggest independent car manufacturer by the 1960s. The company's famous three-wheelers were ...
  49. [49]
    The VW TRIKE - Big E's Garage
    Aug 2, 2021 · The restoration included frame repair, front end rebuild, relocated fuel system, new battery tray, and a new 1776cc engine build.
  50. [50]
    3-wheeler laws
    The change of law in 1963 means that anyone can now have a reverse gear on a 3-wheeler. 3-Wheeler Kit Car Rules.
  51. [51]
    https://www.researchgate.net/publication/356840160_Self-driving_Tricycles
  52. [52]
    Policies to promote electric vehicle deployment – Global EV Outlook ...
    CO2 emissions standards in the European Union played a significant role in promoting electric car sales, which in 2020 had the largest annual increase to ...Missing: post- | Show results with:post-
  53. [53]
    https://www.atomemotor.com/african-electric-three-wheeler-market/
  54. [54]
    (PDF) Self-driving Tricycles - ResearchGate
    We have built a self-driving recumbent electric tricycle, with a total materials cost under $5000 for vehicle, motor, batteries, sensors, actuators, and ...<|separator|>
  55. [55]
    Why Electric 3-Wheelers Are the Future of Urban Delivery
    Sep 23, 2025 · Zen's Micro Pod can carry up to 150 kg, more than double what you get with a standard three-wheeler. The cargo space is customizable: ...Missing: autonomous 2020s
  56. [56]
    African Electric Three-Wheeler Market: The End of India's ...
    Oct 16, 2025 · From a user perspective, the core demands for three-wheeled vehicles in the African market focus on functionality and affordability.Missing: Latin | Show results with:Latin
  57. [57]
    Middle East and Africa Electric Three-Wheeler Market Report 2025 ...
    Oct 16, 2025 · The Middle East and Africa Electric Three-Wheeler Market is booming due to demand for eco-friendly transport, government incentives, ...Missing: expansion Latin America
  58. [58]
    https://micromobility.io/news/new-three-wheel-shared-e-scooters-in-milan
  59. [59]
    South America Electric Three Wheeler Market Size and Trends 2030F
    The South American electric three-wheeler market is witnessing notable growth due to the increasing demand for clean and cost-effective transportation options.
  60. [60]
    The Expansion of Three-Wheeler Transport Services - TRID Database
    Dec 29, 2020 · Since the 1950s, there has been steady growth three-wheeler transport services in Africa, Asia and Latin America. This trend has accelerated ...
  61. [61]
    https://www.veoride.com/wp-content/uploads/2025/06/Shared-Micromobility-for-All.pdf
  62. [62]
    Spin Shared Micromobility Program | Transportation Services
    Apr 10, 2025 · In addition to e-bikes and e-scooters, Spin offers no-cost delivery of adaptive devices, including a seated scooter, a three-wheeled scooter, ...
  63. [63]
    [PDF] The Future of Mobility | EPA
    ... services, including autonomous vehicles, ride-hailing, and carsharing. • Promote policies that deploy shared micromobility services, such as scooters and bikes,.<|control11|><|separator|>
  64. [64]
    [PDF] Veo - Shared Micromobility for All
    Micromobility programs should offer accessible vehicle designs such as seated, throttle-assisted, and three- or four-wheeled options. Page 8. 7. Key Actions ...
  65. [65]
    The data is in: micromobility is in it for the long haul. - Instagram
    Oct 6, 2025 · ⚡ Our 2025 Mode Shift report reveals that micromobility has become a core part of how cities move. Over 1 in 3 shared scooter and bike trips are ...<|separator|>
  66. [66]
    [PDF] On the Golden Rule of Trike Design - DefProc Engineering
    Oct 4, 2010 · Design ... three-wheeled vehicles with two wheels on the front axle (tadpole configuration) and two wheels on the rear axle (delta configuration).
  67. [67]
    Engineering a 3 Wheel Vehicle Chassis - EngineerDog.com
    Sep 9, 2015 · Delta or tadpole configurations with the same relative CG locations will corner at a steady state at the same speed. See Three-wheel ...Missing: common | Show results with:common
  68. [68]
    [PDF] Design of Steering and Suspension System for Hybrid Tadpole Trike
    For the trike with tadpole configuration, we have implemented single pivot type suspension for rear wheel and shock-ups for the front wheels. 3.1 Suspension ...Missing: three- | Show results with:three-
  69. [69]
    On the Use of Steel and Aluminum Materials for Frame Structure of ...
    Aug 6, 2025 · Aluminum material is used as the main chassis because it is light weight and it has comparable performance to the steel-based frame (16) . ...Missing: modern | Show results with:modern
  70. [70]
    Advances of composite materials in automobile applications
    This paper emphasizes the benefits of using composite materials in manufacturing automobile components instead of conventional metal.
  71. [71]
    https://www.academia.edu/58283651/Effect_of_Anti_Roll_Bar_on_Rollover_Threshold_of_a_Three_Wheeled_Vehicle
  72. [72]
    Chatper 2: Vehicle Dynamics - The National Academies Press
    SSF is defined as the track width divided by twice the center of gravity height; i.e., SSF = T/2H. The theoretical basis for SSF calls for rollover if the sum ...<|separator|>
  73. [73]
    None
    ### Summary of Rollover Stability of Three-Wheeled Vehicles
  74. [74]
    Effect of Anti-Roll Bar on Rollover Threshold of a Three Wheeled ...
    It is very prone to rollover in turns even at moderate speeds. Recently anti-roll bars (ARB) have been installed claiming increase in rollover thresholds for ( ...
  75. [75]
    Stability of Three-Wheeled Vehicles with and without Control System
    An analytical method can be employed to assess the stability of the vehicle in relation to rollover risk using Equations (3) and (4) [12]. ... ... R o is ...
  76. [76]
    Tilting, narrow-track, tricycle with rider controllable tilt rate
    The tilting mechanism is merely a mechanical linkage and the rider varies the geometry by moving where the tie rods connect to the bell crank, which changes the ...
  77. [77]
    [PDF] Design and Fabrication of Tilting Trike - IRJET
    The tilting trike uses a mechanism includes a parallelogram linkage which allows tilting of the vehicle similar to any other two wheelers. The tadpole ...
  78. [78]
    Design of a steering mechanism for the three-wheel tilting motorcycle
    Mar 14, 2022 · The main purpose of this study is to establish a design process for the 2F1R (two front wheels and one rear wheel) three-wheel tilting mechanism and to reduce ...
  79. [79]
    [PDF] THE DYNAMICS AND CONTROL OF A THREE-WHEELED TILTING ...
    ... factor in the load transfer between the front and the rear. A model was presented to simulate the effect of road camber on a tilting three-wheeled vehicle.
  80. [80]
    Development and Experimental Implementation of Active Tilt Control ...
    Mar 9, 2022 · An application methodology of the servo motor actuator is developed and implemented on a narrow tilting three-wheeled electric vehicle.
  81. [81]
    Turn Radius, Speed, Lean Angle - Steve Munden
    For a vehicle at a velocity v making a turn of radius r, the radial (that is, inward) acceleration is v 2 /r, the square of the speed divided by the radius.
  82. [82]
    [PDF] Rollover Dynamics of a Narrow Tilting Three-Wheeled Vehicle
    The focus of this paper is to analyse the minimum lean angle necessary for a narrow three-wheeled vehicle under lateral acceleration to negotiate a curve safely ...Missing: risk | Show results with:risk
  83. [83]
    Comprehensive Analysis of a Tricycle Structure with a Steering ...
    Dec 15, 2022 · The static stability factor (SSF) is one of the chief parameters for comparing the rollover probability of vehicles. It is a ratio between half ...
  84. [84]
    Carver trike makes comeback with electric drive
    Aug 22, 2019 · Carver's tilting device is called Dynamic Vehicle Control, or DVC. Hydraulic mechanisms can lean the body up to 45º to counteract the side load, ...
  85. [85]
    Piaggio endows new MP3 tilting 3-wheeler with first-in-class radar ...
    Jul 4, 2022 · The new generation of Piaggio's MP3 tilting three-wheeled scooters has debuted with two models, the 400 HPE and 530 HPE.
  86. [86]
    e-mobility company CIXI's three-wheeled 'vigoz' pedal car travels at ...
    Sep 2, 2025 · Steering is controlled by low-mounted side handles, while an active tilting mechanism allows the tricycle to lean naturally into corners. These ...
  87. [87]
    Bajaj RE Auto Rickshaw Loading Capacity & Dimension
    Rating 4.6 (28) Bajaj RE Specifications ; Max Power, 8 kW ; Engine Displacement (cc), 236.2 cc ; Fuel Tank (Litres), 8 Ltr ; Engine, 4 Stroke Air-cooled ; Fuel Type, Petrol.Missing: 50cc 650cc
  88. [88]
    Three Wheelers - Bajaj Auto Rickshaw 2 Stroke & 4 Stroke, Bajaj GC ...
    Bajaj Auto Rickshaw 2 Stroke & 4 Stroke ; Engine ; Type, 2 Stroke ; Cooling Type, Forced Air Cooled ; Displacement, 145.45 cc ; Max Power, 7 bhp( 5.15 kW) 5000 rpm.
  89. [89]
    RE Full Specifications - Bajaj Auto
    Engine displacement, RE CNG 236.2 cc, RE Diesel470.5 cc ; Maximum net power, RE CNG6.90 kW @ 4750 rpm, RE Diesel6.24 kW @ 3000 rpm ; Maximum net torque, RE CNG16.Missing: single- 50cc 650cc
  90. [90]
    Piaggio Ape Specifications & Features - Oto
    Power 8 hp ; Engine Displacement 200 cc ; Engine Type Single Cylinder, 4-Stroke, Air Cooled Engine ; Fuel Type Petrol ; Torque 14 Nm.
  91. [91]
    Proposed Emissions Standards for Two- and Three-Wheeled ...
    Nov 8, 2010 · The Euro 6 limits for motorcycles and Euro 5 limits for all other categories would match the nominal values of passenger-car Euro 5 limits.
  92. [92]
    Draft EV Policy 2.0 seeks ban on petrol, diesel & CNG 2Ws from Aug ...
    Apr 8, 2025 · Policy also proposes no registration of fossil fuel-powered three-wheeler goods carriers from August 15, 2025. ... Delhi starting August 15, 2025.
  93. [93]
    Electric vehicle batteries – Global EV Outlook 2025 – Analysis - IEA
    EV battery demand continues to grow, and is expected to reach more than 3 TWh in 2030 in the STEPS, up from about 1 TWh in 2024.
  94. [94]
    Lithium-Ion vs Lead-Acid E-Rickshaw Battery | Best Choice Guide
    Aug 23, 2025 · Built with lead plates in sulfuric acid. Bulky and heavy. Lasts for only 300–500 charging cycles. Needs 8–10 hours to fully charge. Pros.
  95. [95]
    Three-Wheeler Lithium-Ion Batteries vs. Lead-Acid Batteries
    Oct 1, 2024 · In contrast, lead-acid batteries take much longer to charge, often requiring several hours or even overnight charging.
  96. [96]
    Mahindra Treo: Leading the Future of Electric Passenger Vehicles
    Vehicle Type :Electric Auto; Passenger Capacity :D+3; Battery Capacity :7.4 kWh; Charging Time :3 hours 50 min ± 10 min; Real World Range :110 km*.Treo Plus · Treo Zor DV · Treo Yaari · Treo Yaari Cargo
  97. [97]
    TVS King EV Max Auto Rickshaw: Mileage, Colours & Spec
    Rating 4.4 (694) The 9.2kWh battery ensures you get a certified range of 179 km on a single charge. ... electric three-wheeler. TVS King EV Max can charge from 0-80% in 2 hours 15 ...
  98. [98]
    Motors for Electric Cars QS273 V3 72V 3000W BLDC Hub Motor
    In stockIt's Motors for Electric Cars QS273 V3 72V 3000W BLDC Hub Motor, 72V 70KPH 3000 Watt hub motor for electric tricycle, electric car and electric motorcycle.
  99. [99]
    Best Electric 3 Wheeler, Commercial Auto Rickshaw - Altigreen
    neEV features an 11 kWh battery, 8.25 kW peak power, and a certified range of 150 km.High Deck · neEV TEZ · Low Deck · Download Brochure
  100. [100]
    Bajaj RE - Price, Mileage, Features, Colours | Bajaj Three Wheelers
    Starting from ₹326,796.00RE E-TEC 9.0. With a big battery of 8.9 kWh, enjoy a long range of 178* km. Now charge anytime, anywhere, without the inconvenience of carrying a heavy charger ...
  101. [101]
    Electric Three Wheeler | E three wheeler Company - Etrio
    Peak Power, 9.5 kW. Peak Torque, 63 Nm. Battery. Battery Capacity, 10.8 kWh. Charging Time, 4 hrs. Performance. Top Speed, 50 kmph. Certified Range, 157 km per ...
  102. [102]
    Are electric three-wheelers capable of climbing hill roads? - Quora
    Feb 3, 2020 · EVs are excellent at providing torque right from start - that makes climbing hills relatively easy as you don't have to worry about the right ...Do electric vehicles have difficulty driving uphill? - QuoraCould an electric off-road vehicle be built to eliminate wheel spin ...More results from www.quora.com
  103. [103]
    Electric Vehicle Battery Trends Boost Solid-State Market
    Jul 28, 2025 · The global solid-state battery market will grow from USD 0.26 billion in 2025 to USD 1.77 billion by 2031. This growth reflects a CAGR of ...
  104. [104]
    https://siarchives.si.edu/blog/full-steam-ahead
  105. [105]
    Top 5 Electric Vehicle Battery Trends of 2025 You Must Know
    Dec 16, 2024 · The top 5 EV battery trends for 2025 are: solid-state, lithium-sulfur, sodium-ion, fast-charging, and battery recycling.
  106. [106]
    Steam Cars - The Henry Ford
    Steam-powered automobiles were popular with early buyers. Steam was safe, reliable, and familiar. People had decades of experience with it in trains and boats.
  107. [107]
    Full Steam Ahead: The Motorcycle's Bicycle Beginnings
    May 24, 2016 · Lucius Copeland's steam-powered three-wheeler could reach average speeds of 10 miles an hour on the road, with a range of 30 miles per tank of water.Missing: 19th | Show results with:19th
  108. [108]
    [PDF] Condensers and boilers for steam-powered cars
    The boiler efficiency qb is the fraction of fuel energy transferred to the water and may be calculated with equation (B61) from appendix E. The energy delivered ...Missing: challenges | Show results with:challenges
  109. [109]
    Boiler Efficiency and Steam Quality: The Challenge of Creating ...
    Boiler efficiency measures how much combustion energy is converted into steam energy, while steam quality measures how much liquid water is present in the ...Missing: vehicles | Show results with:vehicles
  110. [110]
    Aptera's Three-Wheeled, Solar-Powered EV Promises Radical ...
    Jan 26, 2025 · Aptera claims the electricity harvested by the solar panels provides up to 40 miles of range per day, or up to 10,000 miles per year, in sunny ...
  111. [111]
    [PDF] Solar electric tricycle development and research
    May 13, 2021 · A recumbent electric tricycle with a 330W solar battery on its roof was tested, reaching 32 km/h and 50.20 km on a sunny day without recharging.
  112. [112]
    TrikeBuggy Landsailing, new and different Land Sailer to sail the ...
    The Wind-Powered LandSail version of the TrikeBuggy is here!! Now you have another awesome way to cruise around when the wind starts to blow in the ...
  113. [113]
    Toward design and fabrication of wind-driven vehicles: Procedure to ...
    For this purpose, a 1:4 prototype three-wheel land-yacht is first designed and fabricated. The land-yacht comprises of three major parts; horizontal airfoil ( ...Missing: power formula
  114. [114]
    1979 YT125 TRI-MOTO - Yamaha Motor Co., Ltd.
    1979 YT125 TRI-MOTO · Engine type: Air-cooled, 2-stroke, single-cylinder, 123cm³ · Maximum power output: 5.9kW (8.0PS) / 6,000r/min · Weight: 119kg.
  115. [115]
    Can-Am's Canyon Three-Wheeler is Billed as an Off-Roader. But ...
    Aug 23, 2024 · So yeah, long-travel suspension, anti-slip footpegs, knobby tires, you know the drill.
  116. [116]
    Best Selling Shop for Powerful 3 Wheel ATVs - Adult Tricycles & More
    4.3 332 Ground clearance: Higher clearance allows better obstacle negotiation without damaging undercarriage components. Tire tread pattern: Aggressive knobby tires ...
  117. [117]
    klt 250 locking diff? - 3WHeeLeR WoRLD
    Oct 9, 2013 · You loosen the allen bolt to have it in "differential mode" and tighten it to have it in "locked solid axle" mode.Thread: How does a KLT differential work?Thread: differentials - 3WHeeLeR WoRLDMore results from www.3wheelerworld.com
  118. [118]
    a three wheeler with two driving wheels in the front and a trailing ...
    May 19, 2019 · Neither one is good for stability, however the one with two wheels in front is somewhat more stable. Neither configuration is any where close to ...
  119. [119]
    Old Skool 3 Wheeler trial riding! - YouTube
    Jun 24, 2025 · Well boys, I took the ole Honda ATC 350X out on the Harrison Hills ATV Trails & let me tell you, the 40-year-old 3-wheeler performed ...Missing: recreational | Show results with:recreational
  120. [120]
    The Belarusian military is testing a three-wheeled murdercycle
    Sep 16, 2020 · Details regarding this unusual-looking vehicle are scarce, but according to Lee, it's a Belarusian-made Konung military tricycle. First unveiled ...
  121. [121]
    Top Two-Stroke Trikes And Quads of All Time | ATV Rider
    Jul 11, 2022 · With no further ado, and in no particular order, here are our favorite two-stroke three- and four-wheelers of all time.Missing: configurations traction
  122. [122]
    Ida Rose Vanderhall Brawley Electric UTV - Vanderhall
    ### Summary of Vanderhall Brawley Electric UTV
  123. [123]
    Cargo Loader Three Wheeler - 1000kg Capacity, Electric & Motorized
    Standard three-wheeled cargo loaders can carry between 300kg and 700kg, with heavy-duty variants capable of handling up to 1000kg. This high load-to-weight ...
  124. [124]
    Top electric 3W cargo vehicles in L5 Category - EVreporter •
    Charging Time, 3 h 50 min ; Electric Energy consumption (KWh per 100KM), 6.44 ; Battery Technology, Li-Ion (Lithium Iron phosphate) ; Battery Capacity (kWh), 7.4.
  125. [125]
    Advantages of 3 Wheeler Electric Cargos for Businesses - Turno club
    Jun 1, 2023 · It has a payload capacity of 550 kg and can travel up to 125 km on a single charge, making it a sustainable and efficient option for cargo ...
  126. [126]
    2025 New Tricycle/200cc Closed Cargo 3 Wheel Motorcycle with ...
    In stock Rating 5.0 It features a robust 200cc, water-cooled, 4-stroke engine paired with a one-arm, four-spring hydraulic shock absorber system. The tricycle boasts a car semi- ...
  127. [127]
    2025 New 250cc Water-Cooled Gasoline Engine Closed Tricycle ...
    In stock Rating 5.0 2025 Factory Direct Sales 200cc Engine Cargo Three-Wheel Motorcycle Tricycle with Hydraulic Dump. US$998.00 - 1,080.00.Missing: enclosed cabs
  128. [128]
    2025 Honda Cargo 3-Wheel Review: The Ultimate Electric Delivery ...
    Oct 24, 2024 · ... Cargo 3-Wheel, an electric vehicle designed specifically for urban deliveries and short-distance cargo transport. With its compact ...<|separator|>
  129. [129]
    Electric Three-Wheeler Market Size, Growth Forecasts 2025-2034
    The global electric three-wheeler market size was valued at USD 1.9 billion in 2024 and is projected to grow at a CAGR of 6.7% between 2025 and 2034.
  130. [130]
    3-Wheel Scooter Pickups vs Other Vehicles for Last-Mile - AGL-TRIKE
    Compare 3-wheel scooter pickups with vans and bikes for last-mile delivery. Learn which offers better speed, cost-efficiency, and access in urban areas.
  131. [131]
    Can-Am On-Road 3-Wheel Vehicles & 3-Wheelers
    Come and take a look at our selection of Can-Am 3-wheel motorcycles, whether you're into road trips, city rides or to getting off the beaten path.Missing: trail | Show results with:trail
  132. [132]
    Piaggio MP3
    Item 1 of 0. Item 1 of 0.Missing: urban | Show results with:urban
  133. [133]
    New Trike Review: Can-Am Spyder RT Limited - Women Riders Now
    Jul 16, 2022 · This three-wheeler has loads of storage, huge floorboards, cruise control, a booming sound system, full-featured display with Bluetooth app integration.<|separator|>
  134. [134]
    Piaggio Piaggio MP3 Exclusive 530: price, consumption, colors
    The Piaggio MP3 530 Exclusive costs $11,999, has a 530cc engine, cruise control, reverse gear, rear camera, and comes in Blu Oxygen Matt, Grigio Titano Matt, ...
  135. [135]
    How Fast Can a Can-Am Spyder Go? - utvauto
    Jul 20, 2025 · Estimated Top Speed: Up to 125 mph (201 km/h). Spyder F3 Limited: This model transforms the F3 into a full-spec tourer, adding a top case ...
  136. [136]
    Three-Wheel E-Scooter Market Size, Trends, Growth By 2035
    Manufacturers are increasingly integrating smart features, such as GPS tracking and mobile app connectivity, which enhance convenience and safety. These ...
  137. [137]
    A three-wheeled vehicle for the disabled people - ResearchGate
    Aug 7, 2025 · The vehicle is equipped with a special tilt mechanism that allows people with disabilities, who cannot balance their body, to return to an ...
  138. [138]
    Adaptive Tricycle for Special Needs Children - Rifton
    Special needs tricycles offer a fun, recreational way to improve leg strength and reciprocal movement. Discover the reimagined Rifton Adaptive Tricycle!
  139. [139]
    Vehicle Definitions - California DMV
    A “motorcycle” is generally any motor vehicle with a seat or saddle for the rider, with not more than three wheels in contact with the ground, and weighing less ...
  140. [140]
    Rear registration plates of two or three-wheel motor vehicles
    Aug 10, 2010 · motor tricycles: vehicles with three symmetrical wheels (L5e), with an engine cylinder capacity exceeding 50 cm3, for internal combustion ...
  141. [141]
    Regulation (EU) No 168/2013 of the European Parliament and of the ...
    L-category vehicles are two-, three- or four-wheel vehicles such as powered two-wheel vehicles, tricycles and quadricycles. In addition, this Regulation aims to ...
  142. [142]
    Vehicle Registration - Nevada DMV
    You must obtain insurance from a Nevada-licensed carrier comply with verification requirements. ... Vehicles coming from out-of-state must have a VIN inspection.Duplicate Registration and Decal · License Plates · Fees · Nevada Dealer Sales<|separator|>
  143. [143]
    Get a VIN Verification | CT.gov
    Vehicle identification number (VIN) verifications are required to register some motor vehicles. Most VIN verification services can be done at official ...
  144. [144]
    New York State Vehicle Safety/Emissions Inspection Program
    This inspection is required for all vehicles from and including model year 1996 and older, through and including vehicles that are up to 25 model years old, and ...Missing: VIN | Show results with:VIN
  145. [145]
    NRS: CHAPTER 482 - MOTOR VEHICLES AND TRAILERS
    (2) A declaration signed by the applicant that he or she will maintain the insurance required by NRS 485.185 during the period of registration. If the ...
  146. [146]
    Benefits of the Rajasthan EV Subsidy Explained Simply
    Aug 13, 2025 · You also get 100% exemption on road tax and registration fees. And for electric rickshaws, delivery vans, and cabs, there are extra perks under ...
  147. [147]
    [PDF] EV & ESS Policy 2020-2030
    Incentives for Three-Seater Auto-Rickshaws i) ii). 100% exemption of road tax & registration fee for first 20,000 Electric 3 Wheelers purchased & registered ...
  148. [148]
    Motorcycles & Three-Wheeled Vehicles - Nevada DMV
    Both your Class A, B or C and Class M are listed on one license. Nevada transfers motorcycle endorsements and Class M licenses from most other states. If you ...
  149. [149]
    Vehicle Older Than 20 Years? Renewing Registration Just Got ...
    Aug 23, 2025 · For three-wheelers and quadricycles, the renewal cost will increase from Rs 3,500 to Rs 5,000.
  150. [150]
    [PDF] Electric Vehicle Policy of Assam,2021
    8.5. Exemption/Reimbursement of registration charges and road tax on 2, 3 & 4. Wheeler Electric Vehicles for 5 years. 8.6. 100% Waiver ...
  151. [151]
    49 CFR 571.500 -- Standard No. 500; Low-speed vehicles. - eCFR
    Low-speed vehicles must have a max speed of 25 mph, and must have headlamps, turn signals, taillamps, stop lamps, mirrors, parking brake, and seat belts.
  152. [152]
    Upgraded type-approval rules for motorbikes - European Parliament
    Nov 20, 2012 · Under the new rules, anti-lock braking systems (ABS) will have to be fitted to all "bigger" motorbikes (i.e. those over 125 cc), while ABS or ...
  153. [153]
    Nimbus One 50 MPH enclosed 3-wheeled EV has car-like ... - Electrek
    Jul 25, 2022 · That includes a front airbag, fully-enclosed weatherproof design, windshield wiper, and even electronic safety features like “onboard cameras ...<|separator|>
  154. [154]
    [PDF] DEPARTMENT OF TRANSPORTATION - NHTSA
    The next series of findings involve the statistical relationship between SSF and rollover rate that NHTSA uses to interpret the rollover resistance ratings. ...
  155. [155]
    Federal Motor Vehicle Safety Standards; FMVSS No. 305a Electric ...
    Dec 20, 2024 · 20 establishes performance-oriented requirements that reduce potential safety risks of electric vehicles while in use and after a crash event.
  156. [156]
    New EV Fire Safety Rules to Launch in India from Sept 2025
    Sep 22, 2025 · The Indian government has announced that new fire safety rules for electric vehicles will come into effect from September 2025.
  157. [157]
    Govt proposes to bring motorcycles under 'contract carriage' by ...
    Oct 2, 2024 · Proposing 67 amendments to the Motor Vehicle Act, it has proposed the definition of three-wheeler with a maximum design speed limit of 50 kmph ...Missing: regulations | Show results with:regulations
  158. [158]
    Two- or three-wheeled motor vehicles: maximum design speed
    Mopeds have a max speed of 45 km/h, while motorcycles and motor tricycles have a max speed of more than 45 km/h.Missing: tilting 45-80
  159. [159]
    Section 4511.214 - Ohio Revised Code - Ohio Laws
    No person shall operate a low-speed vehicle upon any street or highway having an established speed limit greater than thirty-five miles per hour.Missing: tilting 45-80
  160. [160]
    NHAI bans entry of slow-moving vehicles on high-speed corridors ...
    Jan 15, 2024 · The National Highways Authority of India has banned the entry of two-wheelers, three-wheelers and other slow moving vehicles on three ...
  161. [161]
    [PDF] Sustainability and Safety Implications of Electric Three-Wheeler ...
    The absence of such dedicated lanes, combined with the sluggish speed at which E-Rickshaws travel, leads to increased congestion and bottlenecks on the road ...
  162. [162]
    https://www.cycleworld.com/can-am/spyder-rt/
  163. [163]
    https://can-am.brp.com/on-road/gb/en/models/3-wheel-vehicles/spyder-rt.html
  164. [164]
    Government Modifies PM E-DRIVE Incentives for Electric Three ...
    Aug 13, 2025 · Incentives for the second segment (e-3W registered under L5 category) have been reduced to ₹2,500 (~$28.56)/kWh, capped at ₹25,000 (~$285.59) ...
  165. [165]
    No ban on autos, two-wheelers; power subsidy to continue: Minister
    Apr 16, 2025 · Transport Minister Pankaj Singh on Tuesday (April 15, 2025) said there will be no ban on autorickshaws or two-wheelers or any other vehicles in Delhi.Missing: lift | Show results with:lift
  166. [166]
    Exports Counter Domestic Slowdown For Bajaj Auto In FY2025
    The three-wheeler sales came to 668,657 units, which was 7.3 percent higher as compared to 623,010 units sold last year. The domestic sales grew by 3.3 ...
  167. [167]
    E3W sales hit 699,000 units in FY25, Mahindra, Bajaj Auto shine
    Apr 4, 2025 · At 699,073 units sold, year-on-year growth for this segment was 11% (FY2024: 632,642 units) and accounted for a commanding 57% share of the ...
  168. [168]
    2012 Morgan 3 Wheeler Specs, Performance & Photos - autoevolution
    May 26, 2025 · MORGAN 3 wheeler 2.0L 5MT (115 HP) ; Power: 86 KW @ 3000 RPM 117 HP @ 3000 RPM 115 BHP @ 3000 RPM ; Torque: 140 lb-ft @ 3000 RPM 190 Nm @ 3000 RPM.
  169. [169]
    3 Wheeler - Morgan Motor Company
    The Morgan 3 Wheeler, a 'no frills all thrills' vehicle, finished production in 2021. It has a S&S 1998cc V twin engine, 82 bhp, and 0-62 mph in 6.0 seconds.
  170. [170]
    https://www.autocarpro.in/analysis-sales/electric-3w-industry-scales-new-high-in-fy2025-but-misses-700000-milestone-by-900-units-125743
  171. [171]
    Tukxi History of Piaggio Ape
    The Piaggio Ape, a three-wheeled vehicle, was first produced in 1948. It was designed to help Italy's reconstruction after WWII, and has been in continuous ...
  172. [172]
    Production of Piaggio's Ape Car To Leave Italy After 76 Years
    Feb 13, 2025 · Since 1948, the Ape has been produced by Piaggio in Pontedera, near Pisa. However, some parts of the manufacturing process have been moved to ...
  173. [173]
    End of An Era - Ape Production Ceases in Italy - ScooterNova
    Dec 31, 2024 · The last Ape to be produced in Italy was powered by a 50cc 4-speed 2-stroke engine, not too dissimilar to the motor seen in the last of the ...
  174. [174]
    Arcimoto FUV Electric Trike: What's This 80 MPH Fun Utility Vehicle ...
    Oct 11, 2018 · According to Arcimoto, the FUV can go from 0 to 60 in 7.5-seconds and hit a top speed of 80 mph. Weighing in at 1,100-lbs (before accessories) ...Missing: km/ | Show results with:km/
  175. [175]
    Arcimoto FUV production-spec first drive: it'll turn heads | Electrek
    Feb 6, 2020 · The nice thing is that the Arcimoto will certainly be safer than a motorcycle. Three wheels are much more stable than two, and the FUV comes ...
  176. [176]
    2025 Can-Am Spyder RT - Cycle World
    Dec 10, 2024 · Available in base, Limited, and Sea-to-Sky trims, the 2025 Spyder RT is powered by a 1,330cc Rotax inline-three producing 115 hp. This engine ...
  177. [177]
    2025 Can-Am Spyder RT - 3-wheel touring motorcycle
    Made to tour. The 3-wheel Spyder RT models are comfortable, powerful and ready to ride any distance in style. The ultimate touring vehicle.
  178. [178]
    https://techcrunch.com/2023/12/19/the-small-and-affordable-evs-we-lost-in-2023/
  179. [179]
    Yamaha Motor Exhibits NIKEN Sport LMW at EICMA -
    Nov 7, 2017 · The new NIKEN *1 road-going sport LMW *2 will be on display from November 9 at the EICMA international motorcycle exhibition in Milan, Italy.
  180. [180]
    The Origins of Yamaha's LMW Technology? Chopsticks.
    Yamaha's unique LMW mechanism enables the two front wheels to lean in unison with the chassis and follow contour changes in the road surface well.Missing: three- | Show results with:three-
  181. [181]
    The small and affordable EVs we lost in 2023 - TechCrunch
    Dec 19, 2023 · In April, ElectraMeccanica recalled every Solo over power failure issues. At the time, the company said it was pivoting to four-wheeled vehicles ...Missing: wheeler | Show results with:wheeler
  182. [182]
    Omega Seiki Mobility Unveils World's First Autonomous Electric 3 ...
    Oct 13, 2025 · Omega Seiki Mobility (OSM) has launched the Swayamgati, the world's first production-ready autonomous electric three-wheeler, targeting urban ...
  183. [183]
    None
    ### Summary of RDS x fuRo Raptor Modular 3-Wheel Electric Vehicle
  184. [184]
    project urban 2|3 - Your Choice of Mobility
    Apr 10, 2025 · Explore project urban 2|3's cutting-edge vehicles, from 2 & 3 Wheel models, designed for future mobility. Modular and customizable, these ...
  185. [185]
    Automatic stability control of three-wheeler vehicles - ResearchGate
    Aug 10, 2025 · Narrow tilting vehicles (NTV), known also as three–wheeled vehicles, can be equipped with an active tilting stability controller that tilts the ...Missing: AI | Show results with:AI